Pare box



Feb. 7, 1928.

E. H. THOMPSON ET AL FARE BOX Filed March 2e. 1923 10 sheets-Sheet l lmamm FEBBEB J Mig/ff@ Feb. 7, 1928. 1,658,065

E. H. THOMPSON ET AL FARE BOX Filed March 26. 1923 10 Sheets-Sheet 2 ha luluull) Hmmm Eff; Hja 6027.

Fb. 7, 1928. 1,658,065 E. H. THOMPSON ET AL FARE BOX Filed March 2e. 1925 10 Sheets-Sheet 4 Feb. 7, 192s. '1,658,065

E. THOMPSON ET AL FARE BOX Filed March 26. 1923 10 Sheets-Sheet 6 Egg? lill

Feb. 7, 1928.v

E. H. THOMPSON ET AL FARE BOX Filed March 26. 1923 l0 Sheets-Sheet 7 z g @wh k wml @nu 0 7l 1 lll, o M ik u 5 Z @l @1m e 2 l. M /l Z a n .Mmmm

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E. H. THOMPSON ET AL FARE BOX Filed' March 26.A 1923 lO Sheets-5116?. 8

mmm* d n www@ Tm DSE 771470 Feb. 7, 192s. 17,658,065

E. H. THOMPSON ET AL FARE Box Filed March 26, 1923 10 Sheets-Sheet s NDSU@ NYI) Feb. 7, 1928. 1,658,065

E. H. THOMPSON ET Al. FARE Box Filed March 26. 1923 10 Sheets-Sheet 10 w, Ey

Patented Feb. 7, 1928.

UNITED STATES PATENT OFFICE.

ERNEST H. THOMPSON AND HUGO J. BAUR, OF CHICAGO, ILLINOIS, ASSIGNOB-S TO JOHNSON FARE BOX COMPANY, A CORPORATION OF ILLINOIS.

FARE BOX.

Application filed March 26, 1923.

This invention relates to a fare box tor receiving dilierent coins and tokens and registering the cash and tokens separately in combination with mechanism for registering the number ot' fares deposited.

It is an object or' this invention to provide mechanism that is ope ated by the registering mechanism ot a tare bof; Jfor registering the number oiu tares wherein the same iii- 10 volves a plurality of different coins or tokens, in which the mechanism is accumulative, normally locked against operation and simple in structure and operation.

It is broadly an object of this invention to provide mechanism in connection with a tare box tor registering the number ot fares so that an observer may readily see the number ot fares paid, 'and any penny accumulations.

Fsith these. and other objects in View, which will become more apparent in the `following description and disclosures in the drawings, this invention comprises the novel mechanism and combinations hereinafter described and more particularly pointed out and dei'ined in the appended claims.

1n the accompanying drawings which illustrate a preferred embodiment of this invention and in which similar reference numerals refer to similar features in the different views:

Figure 1 is an elevational view of the tare box with the iare register.

Figure 2 is an enlarged sectional View through ak portion of the registeringv mechanism with parts shown in elevation.

Figure 3 a .section oiithe line ot Figure 2.

Figure -1 is an enlarged plan view oit the coin carrying disk showing the casing in section.

Figure 5 is an enlarged section through the tare boi: taken substantially upon the line 5 of Figure Ll.

Figure. 6 is an enlarged plan view oi ceitain mechanism below the coin vcarrying disk looking from the rear of Figure 5.

Figure 'T is an enlarged section through the gear casing illustrating the trains ot gears tor actuating the diiierent registers.

Figure 8 `is a reduced section upon the line 8 8 ot Figure 7.

Figure 9 is a section upon the line 9 9 or Figure l1 with parte omitted.

CTI

Serial No. 627,700.

Figure 10 an enlarged elevational View et the selective gearing.

Figure 11 is an elevational View of the selective gears ot the gear' trains with a reversing stop.

l `igure 12 is an enlarged section substantially upon the line 12-12 of Figure 1 with parts in elevation.

Figure 13 is an enlarged section upon the line 13-155 of Figure 12.

Figure 14 is a section upon the line 1%-14 of Figure 13.

Figure 15 is an enlarged elevational View of the train of gearing for operating far registering mechanism.

Figure 16 is a developed section of the gearing train for actuating certain registering mechanism.

`Figure 1.7 is a section substantially upon the line 17-17 ot Figure 13 with parts omitted.

Figure 18 is an enlarged section substantially upon the line 18-18 of Figure 15.

Figure 19 is a. part sectional and part elevational view taken substantially upon the line 19-19 of Figure 18.

Figure 2O is a reduced section upon the line 20-20 ot Figure 18.

F ig'ure 21 is a section upon the line 21-21 oi' Figure 18.

Figure 22 is a sect-ion through the tare registering mechanism with parts in elevation.

Figure 28 is a reduced section upon the line of Figure 12 with pai'ts omitted.

Figure 24; is a sect-ion through the casing showing a modified forni of mechanism in elevation tor operating the fare register.

Figure 25 is a section similar to Figure 13 ot the modified form of the invention.

Figure 26 is a top plan view et' Figures 12 or 25 showing the centering mechanism.

In referring now to the drawings, it will be observed that Figure 1 illustrates a fare boit adapted for receiving coins and tokens and registering the same; the box being provided with tour sets of registering mechanism. observable through proper slots oi windows. The window A shows the .ish register. the window B shows the 650 tokens register, the window C shows the 780 and 25e' registering mechanism and the window D shows the 900 token register. The gearing that operates the cash register Y stood.

is operatively connected to vertical shatts which operate a penny indicator E and the tare register F, as will be later explained.

The mechanism for receiving andfregistering the coins and tokens forms no. part ot' this invention except in combination therewith, as thesame is shown and claimed in a copeiiding application Serial .\lo.t327,y

275, tiled Mar. 24.19223. This mechanism will be brieiiy described in order thatv the operation oit this vapparatus .may be under- Y upper end. A yieldable guide plate 7 also extends over the coin disk. The stripper Vbai' and guide elements are pivoted upon an .and extends forwardly over the Vcoin disk `1.

A pair ot levers 10 and 11 having opposed coacting canihubs or faces are joui-nailed upon `the extended end oitfthe rod -9 and yieldingly restrained from longitudinal movement by means of the spring 12 which will yield "and allow relative rotation ot' the levers it there should be a jam in some part ot the machine. The lever 10 projects over the groove in the coin disk; a roller 13 being journalled uponthe end or" said lever for operating in said groove. lVhen the coin disk is revolved so that a coin in a pocket is forced under the roller 137 the lever 1Q wlll be elevated', thereby actuating the lever 11 which extends through a slot in the plate 8 for a purpose to be later set forth.

ln referring to Figure 3, it will be observed that the coin disk 1 comprises a central hub plate 1a upon which a marginal i'ing plate 1b is secured and a sheet metal plate 1c having ka central dome is aiiixed to the upper suritaeeot' the disk. `he central hub plate 1a ytitsfin a circular recess in the plate 8, and is provided with a'stub'sliatt 14 upon which a bevel gear l'is secured. Upon the under side of the coin carrying disk, a cam disk 16 is secured having a'cani groove provided vvith a plurality, tive in the present' instance, ot similar portions for imparting la similar number of oscillations to a lever during one rotation `thereof Yas will be later vfexplainedl Below the cam disk 16 is a supporting plate 17 extends diagonally of the casing and is secured to and supports a ball bearing for the stub shaft 14. lu referring to vltligurc G. it will be noted Let-spes that a pivot stud 18 isseeured upon a lower side margin of the plate 17. A ratchet bar 19'is pivoted upon this stud and is provided at'its upper end with a row ot' ratchet teeth,

and intermediate its ends with a stud 2Ol which projects through an arcuate slot in the plate 1T and Vextends into the'groove ot the cam disk 16 iior oscillation thereby, vA

'mally effective li'or holding said pawl above the arc of oscillation ot said ratchet. A roller 24 is rotatable upon the end-ot said pawl and operates 'in an arcuate slot 25-in the'plate 17. The forward end ot the slot 25 is provided with an upwardly extending recess into which the roller 24 may be ele fated by the spring 23. A lever 26 pivoted intermediate vits ends upon the upper side of the plate 17V has one end in engagement with the roller 24e when the same is located in said recess; the other-'end of said lever 2G is normally incontaet with the atorede-Y scribed coin actuated lever 11. A rack bar with bevelled circular ridges 31 upon a slid` -ableV sleeve 32.

Then a coin passes under the roller 13, the lever 11 will beactuated to move the lever 26 against the pawl torcing the saine into engagement with ratchet teeth ot the bar 19 which is oscillated by rotation oi" the cam disk, the exact point ot engagement depending upon the size of the coin or tokeny iassino' under the roller 1B. As soonas the pawlis breugh;

into engagement with the ratchet. the roller 24 will pass into the arcuate slot 25 and said pawl will be forced to remain in engagemiwnt with the ratchet'. rlhe point ot engagement ot the pawl with the ratchet. naturally determines tlie throw of the lever 21 and hence the amount ot'i'otation ot the segment Btl and therefore the amount ot sliding nieveineiit .imparted to the selective gear. sleeve 32 which lis provided with a segmental gear 33 adapted to be brought into operative relation with different gear trains for actuating tlie different registering mechanism A. B, C and D. In referring to Figure 10, it will be observed that the sleeve is slidably splined upon a bushing 3e at V one end and sli dingly and rotatably mounted upon a shaft at t-he other end which is suitably supported in thecasing; the bushing being journalled` upon said shaft and provided with a gear whereby the bushing and sleeve maY be rotated. The sleeve 32 is provided vvith a plurality of spaced arcuate slots 37 and 33 for a purpose to he later set forth. The gear 36 meshes with a gear 39 on the crank shaft 40 Which shaft is also provided ivith a bevel gea meshing With the gear on the coin carrying disk. Rotation of the crank shaft 4G b v means of the hand crank 4l Will simultaneously rotate the coin carrying disk. cam 1G and the sleeve 32.

Nonv assuming that different coins and tokens have been deposited in the fare box through the hopper and rest upon the coin carrying disk which is being operated, and assuming that the various coins and tokens are brought up under the roller 13 in successively increasing thickness, the various trains of gears novv to be described Will be set in motion to operate the different registering mechanisms. lVhile the mechanism may be designed with reference to an;7 size coins or tokens, in the exemplification of this invention, the machine has been designed With reference to the following coins and token, namely, the Canadian nickel, a. G50 token, a dime, a penny, a 780 token, or el piece, a U. S. nickel and a 900 token.

TWhen the Canadian nickel passes under the roller 13, the sleeve 32 Will be shifted to bring the segmental gear 33 thereon into mesh with a spur gear 42 (Figure 10) looselyy mounted upon a shaft 43 journalled in a gear casing in the fare boX. The gear 42 meshes with a gear 44 (Figure 7) upon a. shaft 45 that actuates the cash register. rlhe gear 44 is provided with an elongated hub hav ing the terminal gears 46 and 47 the former of which meshes with a gear 48 fast on shaft 43 and having a locking disk 49 secured thereto which is normally locked against rotation b v the sleeve 32 but Which comes into alinement with an arcuate slot- 37 (Figure 10) when the gears 42 and 33 are brought into mesh.

Now assume that a G5() tokenpasses under the roller 13, the sleeve 32 will be shifted to bring the segn'iental gear 33 into mesh with the second spur gear 50 (Figure 10) that meshes with a gear 5l loosel)7 mounted upon a shaft 52 (Figure 7,). rlhe gear 51 has an extended hub Which is provided With a terminal gear 53 which meshes with a lock ing gear 54 loosely mounted upon shaft and having a locking arm 55 that normall'v engages the sleeve 32, but which becomes alined with a slot in said sleeve When the gears 33 and 50- are in mesh to alloiv rotation of gear 51 which meshes with an idler gear 56 on a shaft 57 supported in said casing. The gear 56- drives gear 58 secured upon a shaft 59 which operates the 650 token register.

Now assume that a dime is the next to pass under the roller 13, the segmental gear 33 will be shifted into mesh with the third spur gear 60 Which is fast upon the shaft 4.) causing said shaft to rotate and imparting rotation to cash register shaft 45 through the iutermeshing gears 46 and 48 which will have been unlocked b v an opposite slot in the sleeve.

Further assuming that a penny ivill be the next to pass under the roller 13, the sleeve 32 Will he shifted to bring the segmental gear into mesh ivith the fourth spur gear 61 looselvv mounted upon shaft 43 and Which meshes With a gear 62 fast upon the shaft 52 and Which has a tvvo toothed disk 63 secured thereto: said toothed disk (33 being adapted to slightly rotate gear G0 and through gears 4S and 46 imparting a similar rotation to the cash registeringl` shaft The locking gears of this train are 63a and 63h with the locking arm (i3c having' a concave end which becomes unlocked through the proper slot in sleeve 32.

NOW if a 780 token or a 25o piece should be brought under the roller 13, the segmental gear 33 Would be shifted into mesh with the fifth spur gear 64 loosely mounted on shaft 43 and which meshes With a gear (i5 loos-elfi mounted upon shaft The gear 65 is provided ivith an elongated hub having another gear 66 thereon which meshes with a locking gear 67 having a locking arm 63 provided ivith a concave end normally.' in engagement with the sleeve 32 but which comes opposite an arcuate slot in the sleeve when the gears 33 and G4 are brought into mesh ivhereby the train of gears becomes unlocked. rllhe gear 66 meshes ivith an idler gear 69 loosely mounted upon shaft 57. the gear (it) operating a gear 70 secured upon a shaft 71 journalled in the gear casing and which gear operates the 25 and 730 token register.

Now if a nickel passes under the roller 13, the segmental gear 33 will be shifted into mesh With the sixth spur gear 72 which is loose upon the shaft 43 and which meshes with the aforementioned gear 47 on the cash registering shaft 45 for operating the same and the cash register.

Now if a 900 token should pass under the roller 13, the segmental gear 33 would be shifted into mesh with the seventh spur gear 73 upon shaft The gear 73 is loose upon shaft 43 and meshes with a gear 74 secured upon a shaft 75 which operates the 900 token register. The gear 74 is provided ivith an elongated hub having a second gear 7o Which meshes With a locking gear 77 loosel)T mounted upon shaft and provided With a locking arm 77a that normallyv engages the sleeve 32 but .vhich becomes unlocked tlnough the alinement of an arcuate slot in the sleeve.

The end of the sleeve is provided with a locking segment 78 (Figures 6 and l0) that passes into and out of different grooves l In) or notches Vin `an interlocking member 7 9 (Figure 9) so that the sleeve cannot be shitted while airain ot gears is being operated. After the train of gears has been operatedA and the segmental gear 33 passes out ont mesh with the, gear with which it has been in mesh, the locking segment will pass out et engagement with its notch in the member 79. At this time the camV 16 will have rotated through a dwell andv will bein position to actuate the ratchet bar 19 and lever 21 to return or shitt the sleeve 32 to its initial starting position. The mechanism is so timed 'that the lever 21 is in initial starting position when a coin is passing under the roller 13 and the Vsleeve 32is in the position shown in Figure 6. 1t is therefore evidentthat the mechanism is so timed that the sleeve 32 will be shifted into engagement with the proper gear train, .locked in such position while the train of gears Vis being operated, released after operation ot the train Y of gears, and-restored to initial position by the time another token has actuated the roller'13. N

The foregoing described mechanism forms the. subject matter Vot the said copending application. This invention primarily conf cerns itselt with a unit tare registering` mechanism which is operatively associated wit-h the other registering mechanism and which co-onerates with the aforedescribed mechanism to provide a Stare' box that registers the cash, thev number ot 'Y tokens and the number of fares to provide a check upon the conductor. y y n ln accordance witlrthe foregoing, mechanism has been provided which is operatively associated with the registering mechanism for controlling certain mechanism actuated by the main driving shatft;A the latter mechanism registering the number ot' fares paid..

ln referring to Figures 12, 15 and 16, there is shown a small spur gear 81 secured upon a shat't operatively associated with the. aoredescribed cash registering niechanism. This may be the previously described shatt i-.5.' lt will be understood c that the gear 81 will be partially or wholly CII rotai ed according to' whether a penny, a nickel or a dime hasbeen registered; the latter imparting a total rotation to the gear 81. This gear 81 meshes with a spur gear 82 journalled upon a vscrew bolt 83 extending from a plate 81 suitably supported in the casing.V A second larger spur gear 85 is also joui-nailed upon the screw bolt 8B and is suitably connected to the gear 82 and may constitute a part thereof. The gear 85 meshes with a spur gear 86 having an extended hub which is journalled upon a screw Vbolt 87 extending from the supporting plate 8i. larger spur gear 88 is secured to the inner end ot said hub and a disk S9 is inend ot" said hub.l A

gear dislr 90 having a single tooth is secured to theldisk 89 and is designed to rotate one revolution Vtor one tare. The gears intermediate said gear 90 and gear 81 are timed so that while the latter makes one revolution for every ten cents the gear 90 will malte vone revolution toi' one tare whether that tare is six cents, seven cents or any suit-able number ot cents. The gear 88 meshes'with a gear 91y secured upon va shatt 92 journalled in a U-shaped braciret 93 attached to the gear 'casing 9a and having a depending lug 95. 'A bevel gear 96 is also secured upon the shaft 92 and meshes with a bevel gear 97 secured upon the lower `end of a `vvertical shaft 98 joui-nailed in the arms ot' the bracket 93. A gear 99 is secured upon the upper part of the shat't 98 and meshes with a gear 100'(Figure 12) loosely journalled upon a rotatable housing 101. A ratchet wheel 102 is secured to the upper side of the gear 100 (Figure 26) and a pawl 1.03 secured uponV the upper end et a rod 10% coacts with the ratchet wheel. The teeth ot the ratchet andthe tooth on the pawl are sutiiciently bevelled so that rotation of the gear 100 will 'torce the pawl out ot' engagement with the ratchet. Vrlnis pawl and ratchet serves as an overthrow preventer tor and controlscthe rotation ot the shaftl 98 which actuates a penny indicator oi' accumulator 105 (Figure which will be later described. V

Referring to Figures 15, 16 and 18, it will beobserved that the single toothed gear 90 periodically iinpaits rotation to a pinion 106 journaled upon apivotbolt 107 (Figure 18) supported by and extending from the tare box casing; The gear 106 meshes with a gear 108 loosely mounted upon a stub shaft 109 (Figure 18) extending from and supported by the casing. An accumulating gear 110 having lateral teeth is loosely mounted on the outer end ot shaft 109 and retained by a suit-able end collar or head onv the shatt. This gear 110` has a missing' toothftor 'apurpose to be .later set forth. A disk 111 having a single notch in the periphery thei'eotis loosely mounted adjacent the inner side of gear 108, and a disk 112 is loosely mounted adjacent saidvdislr 111. rlhe disk 112 is provided with a pair ot' teeth 112QL (Figure 19) forming arecess therebetween in which the teeth ot a Geneva gear 118 are adapted to lit. The gears 108, 110 and dislr112 are connected for conjoint. rotation bythe dowel pin 11st. Adjacent the disk 112, there is a gear 115 also loosely mounted upon the stub sha-tt, and this 'gear meshes with the Geneva gear 113 and has a limited oscillating movement. The Geneva gear 113 meshes with the notch in the disk 111, the pair ot teeth on disk 112 and the. gear 115. The alternate teeth ot the Geneva gear are cut away sufficiently so that they do not extend to the disk 111 and will not engage therewith.y ridjacent the gear 115', there is a disk 116 looseiy mounted upon the stub shaft and this disk is connected to the gear 115 by means ot the pin 11T tor conjointI rotation. An arm 118 (Figure extends from the disk 110 and is adapted 4to be swung into and out et the path ot the tail oft a spring actuated pawl 119 (Figures 13 and 11) which 'terms the operative connection between the tare registering mechanism and a vertical shnait 120 which is rotated by the main driving shaft of the tare box as will later more .tully appear. At might be stated at this point that a 'tare will cause the actuation oi the single toothed gear so that it will move the pinion 10b one tooth, thus moving the accumulating gear one tooth. rFhis movement of the gear 110 will rotate the disk 112 which rotates the Geneva gear 113 the distance of one tooth. The Geneva gear 113 will rotate the gear 115 and the disk 116 and swing the arm 118 (Figure 111) out ot the path otl the tail ot the pawl 11S) allowing tlie pawl to engage the shaft 120 and rotate therewith so as to rotate the 'fare registering mechanism. Then the Geneva gear 113 has been actuated one tooth, it wili be locked by the disk 111 which will lock the gear and disk 116 from rotation until a reverse rotation o1Lx the disk 112 takes place, which will bring the Geneva gear back to initial position. It will be seen that the locking ot the Geneva gear 113 will be accomplished by the periphery of 'the disk 111; the notch therein and said periphery having passed a tooth in said gear which has been cut away, the two whole teeth adjacent said tooth will ride on said periphery and prevent said gear 113 trom tru-ning.

iwiechanisin has been provided ior normally locking the accumulating gear 110 and the pinion 106 against rotation. 'in the exemplitication ot' this invention, a pawl 121 (Fig. 113) is pivoted intermediate its ends upon a. shaft 1212L and is normally spring-impelled by a spring 1211 towartL the gear 110 to act as an aligner. A second pawl 122, secured intermediate its ends upon the shaft 121, has a broad plate meniber 80 (Figs. 9 and 11) secured thereon which lies in the path oi. the. gear locking arms 55, (38 and T7 tor actuation thereby when a token is registered. The registration o1" a token will therefore oscillate the shai't 121 and pawl 122 for rotating the pinion 106 and gear 110 one tooth, said pawl being normally spring-impelled by a spring (not shown) away from engagement with the teeth et' the pinion 100. rlhese pawls are provided with tails which lie in the path ot a. cam 123 secured upon the driving shaft d0 ot the faare box. The timing and arrangement of the mechanism .is such that the cam 123 will become disengaged t'rom the tails ot' the pawls at the proper time allowing the pawl 121 to disengage gear 110 when the latter actuated, and the pawl 1221.0 actuate the pinion 100 it a token has been registered.

ln ret'erring to Figures 12 and 13, it will be noted that the vertical shaft is provided with a gear 124 in mesh with a gear 125 secured upon the driving shaft 40 so that the shat't 120 is constantly rotating during the operation ot the tare bor; which may be either manually or motor driven The shaft 120 is located 110 and it is provided with a projecting tooth or stud 120 which is adapted for engaging the gear 110 and returning it to noi mal position atter it has been actuated by the pinion 106. vVvlhen the gear 110 is in normal position, the missing tooth before mentioned will provide a space directly opposite the shaft 120 so that the stud 126 can pass without actuating the said gea-r, but as soon as the said gear has been actuated, a. tooth will be brought in the path ot' the stud 126 which will engage the gear 110 and rotate it back to normal positionA This reverse movement of gear 110 will cause the reverse actuation of the Geneva gear 113 and the gear 115 which will rotate the disk 116 to swing the arm 113 into the path ot' the tail of the pawl 119 for shifting the saine out ot operative position and holding the saine in such position.

The upper end of the shaft 120 (Figure 13) is provided with a reduced portion upon which a bearing 127 is secured. This bearing is provided with a collar in which several ratchet 'teeth 128 (Figure 14) are formed tor engagement with the pawl 119, which is pivoted to the inside ot the atorcinentioned housing 101 which in turn is rotatably mounted upon the bearing 12T by means ot a ball bearing 12S) (Fig. 13); the upper end ot said housing being in the t'orm ot' a tube surrounding the shatt 120 and rotatably supported in a bearing 130: the lower end ot said housing' being' formed by a closing disk 131 toi-ming the support for the pawl.

Above the gear 110 (Fig. 12) there is a projecting stud 132 on the shalt 120. During cach rotation oit said shatt, the stud 132 is adapted to strike an arm 133 rotatably mounted upon the aforementioned rod 10%. The hub portion of this arm is provided with a cam surface that coacts wit-h an upper cam surface upon a collar 134e secured to the rod. A coil spring 135 between a washer on the rod 101 and the hub of the arm 133 yieldingly holds the said arin against the collar 134e. lli/Then the stud 132 strikes the arm 133, there will be a tendency to rotate the rod 10st so as to properly center the adjacent the gear pawl 103 and torce the same between a pair ot ratchet teeth in order that theshatt 98 willbe limited to a definite predetermined rotation. Should, by some chance, the pawl 103 be positioned upon the top of a tooth so as not to be capable of entering a recess, the vspring would allow the arm 133 to rise and rotate on'the rod 101as is obvious without injury to the mechanism.

ln referring to Figure 13, it lwill be noted that the tube on the housing 101 extends above the shaft 120 inthe torm ot' a socliet tor receiving the tare registering shaft 136 (Figure 2) Vand coupling the same thereto. The'shatt 136 ishoused in a vertical sleeve or hollow column 137' which supports the.

casingl tor the tare register FA atvits upper end. The shaft 136 extends through this sleeve and is provided with a gear 138 (Figurek 22) at its upper, end which actuates the fare registering mechanism, a portion ot which is illustrated in Figure 22, but as these registers are old and well known, turther description and disclosures seems un-v necessary.Y

At a suitable distance above the tare box,

a'cylindrical casing 139 is securel upon the column 137 and concentric therewith. This casing is in the torni or a hollow shell liavingend collars provided with apertures tor` receiving the sleeve 137 tok which they are secured. Within the shell, there is a.

sleeve l140 rotatably mounted yupon the column 137 and sustained by afcollar 141 secured tothe column. The lower end of the sleeve 140 is provided with gear teeth 142 whereby rotation may be imparted thereto through the instrumentality ot' a gear 143 secured to a small vertical shaft 144 having its upper end jouriialled in tlielower collar of the shell and having its lower end coupled to the upper end ot shaft 93 (Figures 12 and 16). Upon the sleeve 140 there is secured the atorementionedpenny indicator 105 in the form of a drum having a kcentral web with anges that surround the sleeve. This drum has an outer surface' with numerals, preferably from 0 to 5, imprinted thereon upon its upper and lower halves and these.

numerals are exposed to view through a pair of windows 145. This structure constitutes the yindicator for the penny accumulation inI that it showsthe nuniber'ot pennies thatV have not been'recordedas fares. For eX.- aniple, assuming; that the :tare is six cents,

and a ten-cent piece has passed throughV the tare boX, one tare will be recorded on the indicator F while the extra four` cents will be indicated by the indicator E i IiiiFigures 24 and'25, there is illustrated a slight modification,V The parts are substantially' the same as shown and described in Figures. 13 and 15 except that a pawl and ratchet mechanism is substituted for the for the driving pinion 106. In the modified kthe spring will [of the cam 154` will record a' tare.

Lesegert torni, a ratchet wheel 103it is secured to the accumulating gear 110L which is shown asaiiv ordinary gear. This ratchet wheel is en-Y gaged by a pawl 1&6 yielding pivoted upon a lever 1&7. 'l`liis pawl is in the l'orm o a bell crank lever, the pivot ot the pawl being at the apex letti, with one ai'in vengaging the ratchet wheel and the other arm liaving an inwardly projecting pin .slidable in a. short arcuate slot lef in the lever 1st?. A spring wire 148 is secured one end to said pin and looped over the pivot 1st;u and anchored at its other end to the lever le?. The arrangement is such that the wire is crossed intermediate the pivots so that the tendency 'of draw thev pawl inwardly zitter the actuation ot the ratchet, the latter having elevated the point ot the pawl to bring the into position for engagingr'a i'irst tooth. f Y

The lever 1&7 is pivoted intermediate its ends upon pivot and the part ot the lever below the stud is of substantially quadrilateral iform havingl cani engaging Y projections 150 atV its lower outer corner,

gear 83 is adapted tor: engaging the other two cam projections 151', and 152. A holding pawlV 155 is mounted upon the stud 149 Jfor..engaging the ratchet and preventing reverse rotation thereof. T his holding` pawl is so 'connected with'the lever 147, preferably by means ot' a stop lfand a spring 1471, that it will lswing therewith out ot' engagement with the ratchet wheel Vwhen the said lever is swung to shitt the pawl 146 'troni a ratchet tooth so that the stud 126 on shatt 120 iuV striking the` gear 110.1 may return it to normal initial position( The spring 1417b normally presses the pawl 15.) against the ratchet 108 In this inodilied torni, the gear 81. which isactuated by the cash registering mechanism will act-nate the cam 15S-it through the gears 32, 85 and 86. Each rotatidn When the cam 154 rotates into the position shown in Figure 24. the pawls will he in the position shown in Figure 24, the pawl 155 being` out ot engagement with the ratchet while the end of pawl 141-6 will be short distance in the rearror" a ratchet tooth. As soon as the cam 154 Vstrilves theY cam projection 151, the lower end ot the lever 147 will more voutw'ardly,V bringing Vthe pawl 155 against the ratchet and shia-ting the pawl 14.46 against the forward r il A lost motion connectionV ot the slotv 147. 'Aitor-the ..aii'i`15f/irides ott Vthe projection 151, it will strike the projection 152 and swing'the iso Y iet tooth through the CFL lever 14T in the opposite direction for raising the paivl 15:3 out of engagement with the ratchet and shifting the paivl 1416 avvay from the engaged ratchet tooth so that the stud 120 on the shaft 120 which Will have rotated into engaging position with the gear 110 may rotate the gear back to inital position for shifting the arm 118 (Figure 1l) into the path oi' the tail of pavvl 119. During this interval, the cam 153 will have rotated around into engagement ivith the cam projection 150 for holding and retaining the lever and paivls in their inoperative position substantially as shovvn in Figure 2a. lt will of course, he understood that the cam will ride otl'A the cani projection 150 before the cani 15S-i comes around again for another actuation.

The operation is as follows:

1n the above description, it has already been pointed out hovv the different tokens are registered and hovv the coins are registered on the cash register', it now remains to describe hovv the fares are registered. )Viren a coin is registered on the cash register A, the gear 81 (Figures 12, 15 and 16) Will he rotated. In referring to Figure 15, it will he noted that gear 81 has ten teeth, the gear 82 with which it meshes has 1Q teeth, the gear 85 has 20 teeth and the gear 86 that rotates the single toothed gear' 90 has 10 teeth, 1t will therefore be evident that siX- tenths of a revolution of gear 81 will rotate gear 85 a half a turn or ten teeth, imparting thereby a complete rotation to the single tooth gear Which will actuate the pinion and hence the gear 108 (Fig. 18) and gear the distance of one tooth. As each tooth of gear 81 represents af penny actuationr` it. will be apparent that each rotation of the single tooth gear Will constitute a sin-cent fare for which the present fare box is designed.

Assuming that one or more pennies are passing through the fare box, the gear 81 will he actuated one or more teeth, impart ing fractional rotations to gears 82, 85, 86, 90, 91, 9G, and 143 (Figure 2), the latter of ivhich will rotate the penny indicator to shouf' the number of pennies accumulated. Five pennies may be thuswise accumulated and indicated on the penny indicator; a C' th penny will, however, cause the single it led gear 90 to complete its revolution antL actuate the accumulating gear 110 the dis luce of one tooth, through the instrumentality of the pinion 106 and gear 108; the penny indicator rotating around to Zero.

lotation of gear 110 Will swing arm 118 which normally holds the pawl 119 in an inoperative position out of engagement therewith allowing the spring 119 to actu-- ate the paivl into engagement` with a tooth 128 in the sleeve 127 secured to the shaft vvhich is continually rotating during the operation of the machine, whereby the housing 101 and the shaft 120 become coupled together for conjoint rotation and as the housing 101 is operatively connected to the fare registering mechanism previously set forth, the fare registering mechanism F Will be actuated to indicate the fare. The mechanism is so timed that as the shaft 120 is coupled to the housing 101 and is making a rotation to register the fare, the stud 1:26 thereon will engage a tooth of the gear 110 and rotate the same back one tooth and since there Will he no accumulations on the gear 110 on account of the pennies, suoli rotation will swing the arm 118 into the path of the tail of the pavvl 119 which Will lift and hold the pavvl out of engagement with the shaft 120 when the same has conipleted a rotation in coupled relation With the housing 101. It vvill, of course, be uuderstood that When the gear 110 is inv normal position, the space defined by the missing tooth will allen' the stud 120 to pass but just as soon as gear 110 is rotated one more teeth, a tooth thereof will be brought` into the path of the stud 126.

Now if a ni( c passed through the fare bonv` the gear 81 would revolve one-half of a revolution or tive teeth, and the single toothed gear 90 would malte iive-sixths ot a revolution. he live pennies thuswise accumulated would he indicated on the penny indicator E". It Would hence require auother penny actuation to cause the single toothed gear 90 to complete its revolution for actuating the pinion 100 and accumulating gear 110 the distance of one tooth. Now assume that another nickel follows in succession, the gear 81 Will complete its revolution, gear 82 Will be rotated teii-tvvelfths of a revolution, and the single toothed gear 90 will complete its revolution and rotaie four-sixths of another revolution, T he foursiXths of a r volution arising from the four excess pennies over a tare will be indicated by the numeral 4f on the penny indicator. Every revolution of the single toothed gear 90 Will rotate the gear 11() the distance of one tooth, and this rotation of gear 110 ivill swing arm 118 avvay from the tail of the paivl 119 so that the paul may couple the housing to the shaft. The Geneva gear 1153 will lock the arm 118 out of the path of the pavvl 119 and it is necessary for the stud 126 on the shaft 120 to rotate the gear 110 back to normal position to unlock the arm 118 and svving it back into the path of the pawl 119. 1t is, hovvever, possible to rotate gear 110 tvvo teeth during one rotation of shaft 120. dach movement ot' gear 110 would rotate the disk 112 completely out of engagement With the Geneva gear 113, so that. it. would require two rotations ,of shaft 120 to bring gear 110 back to normal position and to bring' the disk 112 back and tour ypennies will be accumulated upon gear 90 in the torni of advanced rotation and will be indicated upon the penny indicator Et lt will require one rotation of .shaft #10, assuming tlie-lirst dime to be under the roller 13, to register one dime and. move the accumulating gear 110 and shi t't the-arm 118 out of engagement with the-pawl 119. At theend or the `first revolution, the pawl f 119 will be spring-impelled into engagement with the shaft 120 whereby the tare register' becomes coupled to the said shatt tor conjoint rotation therewithrtor Yregistering a tare. During the'second rotation of shatt- 120, the stud`126 will rotate the gear 110 back to normal position, since the parts are so arranged that the stud 126 has passed through the space of the missing tooth beftore the accumulating gear 110 is rotated. During this second rotation ot shaft 120 which is caused by Athe second rotation et shaft d0, the second dime will pass through the machine, causing the one tooth gear 90 tol lcomplete the advanced revolution, malte another complete revolution and a fractional revolution of two-sixths,v since the four pennies plus the dime malte two fares with two cents in excess. These two cents will, oi course, be shown on the penny indicator E. SinceV the one toothed gear 90 males two com' plete revolutions when the *secondV dime passes through the machine, the accumulating gear 110 will be actuated the distance oi two teeth. 'A movement of two teeth olf the accumulating gear110 willrotate the disk 112 completely out ot engagement with the Geneva gear 113,y so it will require two Vreverse actuations the shaft 120' to bring it back to normal position for actuatingl the Geneva gear 113 `for unlocking the disk 110 and swinging the arm 118 into the path of the pawl 119. Tiereifore, theV housingl 101 will remain cou-pled to the shaft 120 during the third rotation. During the third rotation of shat't 120, tne accun'iulating gear 110 will be moved baci; one of the two teeth, hutY the third dime in passing through the tifare boi; will cause the one toothet gear 90 to complete the remaining tour-sixths of aV revolution and another complete revolution so that the pinion 106, gear 108 and gear 110 will be moved through a distance .of two teeth, thereby turning the teeth on the disk 112 still further away from the Geneva gear. At the end Y.of the, third rotation ot actuate the'accuinulating gear 1710 one tooth Y shaft 120,'twolof thefive fares represented by three dimes or thirty cents will have been lock the disk 116 and swing arm 118 into the path of the tail of the pawl 119, whereby the tail of the pawl Vwill ride under the arm i'or disengaging the pawl, providing ofi Vcourse that noniore coins in the iorin of nickels or dimes are passing VVthrough the machine. Pennies, however, may follow the three dimes since it requires sixv rotations or' sliaitn() to register six pennies and move Vthe accumulating y gear and consequently as an equal number of rotations will' be' imparted to shaft 120, itv will be apparent that the fare registration may catch up while the pennies are passing through'the machine.

yllo matter how rapidlyor how slowly the gear 90 is operated by the cash register whenever it turns the accumulating gear one step the connection betweenthe shaft 120 and t-he fare counter F is established and the number ot six cent fares are recorded thereon until it hasbeenl operated as many times as the vgear. 90 has made complete turns or until the accumulating gear has been stepped back by shaft 120 as many times asfit has been steppedk forward by the oneltootli` gear 90. 'Willen a token is registered, Vtheplate member 80 will be actuated by. a locking arm to oscillate -or ractionally rotate shaft 1219* to operate the pawl 122 for rotating the pinion 106 and gear 110 the distance of one tooth, so eachtoken may he lt ischaracteristic ot'this invention that' the train of gears that actiiates the tare registering mechanism is normally lockedV 'from operation, being only released during actualoo registeredlas fare upon the iare register y tion so that the machine is very accurate.

lt is Yfurther characteristic ot this invention that the train ot gears that controls the fare registering mechanism is accumulative and may be designed iorl any vfare. It Vshould also be apparentthat the fare registration in connection with the penny indicator will greatly `aid the inspector in checking np on the conductors.. Y Y

' The accumulation' is effected vto allow of a greater period of time between'the indications of separate tares` thus permitting in an instantaneous register the giving ot' distinct;A audible signals and also lpermi ting the convenient observation of the changing nres on the fa e register.

le are aware that numerous details of construction ma;v be varied through a wide range without departing from the principles of this invention, and we 'therefore do not purpose lin'iiting the patent granted otherwise than necessitated by the prior art.

`We claim as onr invention:

l. In a fare box, the combination with the cash registering mechanism, of a fare regis` ter and penny indicator, a driving shaft for said cash registering mechanism, a vertical shaft geared to said driving shaft, a housing rotatably supported on said vertical shaft, a pawl on said housing normally spring-impelled into engagement with said vertical shaft, a rotatable dish having an arm normally holding said pawl ont of engagement with saidshaft, a gear on said disk, Geneva gear for'operating said gear and locking the same from rotation, means for operating said Geneva gear and penny indicator comprising a train of gearsdriven by said cash registerinO mechanism.

2. In a fare box, thecombination with the cash registering mechanism, of a. fare register, a penny indicator, a shaft, a releasable connection between said shaft and fare register, a member for controlling said connection, a train of gears driven by said cash registering mechanism for operating said member at predetermined times and operating said penny indicator, said train of gears embodying a cumulative gear in proximity to said shaft and operable thereby in a reverse direction.

3. In a fare box, the combination with the cash registering mechanism, of a fare register, a driven shaft, a releasable connection between said shaft and register, a member for controlling said connection, a train of gears connecting said member and cash registering mechanism for operating said member to inoperative position, and means on said shaft for engaging said train of gears for operating said member to operative position.

il. In a fare bex. the combination with cash registering mechanism, of a fare registering mechanism, a shaft for operating said fare registering mechanism, a train of gears operatively associated with said cash registering mechanism, and means actuated by said ,train of gears at predetermined periods for connecting said shaft and fare registering mechanisms. f

5. In a fare box, the combination with the cash registering mechanism, of fare registering mechanism, means for operating the latter mechanism comprising` a shaft, a clutch for connecting said shaft and fare registering mechanism, and means controlled by the operation of said cash registering mech ism for c trolling said clutch.

5. l a., the comeination with the mechanism, a shaft for operating the latter, means actuated by a train of gears connected to said cash registering mechanism for connecting said shaft and fare registering mechanism at predetermined times resilionsive to selective cash registrations.

7'. in a fare box, the combination with cash registering mechanism, of fare registering mechanism, a shaft, a pawl connected to said fare registering mechanism and adapted for coupimgy relation with said shaft, a swingable arm for normally holding said pawl disengaged position, and a train of gears operatively associated with said cash registering mechanism and operative after a predetermined cycle of operationV for swinging said arm out of engagementY with said pawl.

S. En a fare box, a fare register, a shaft, and means for operatively connecting said shaft and register at predetermined tim'es, a swingable member for controlling said means, and a train of gears for operating d swing ble member, said train being acapted to be actuated by the cash inserted in the fare box.

9. In a fare box, me combination with the cash registering mechanism, of a fare register, a shaft, and means for operatively coupling said shaft and register, and a train of gears operated by said nechanism for controlling said means whereby saidV register may be driven by said shaft in accordance with the operation of said mechanism.

l0. En a fare box, the combination with the cash register, of a fare register, a penny indicator, a driving shaft for said faire regis er, a train ofv gears driven by said cash register for operating said penny indicator, connection between said shafty and fare register and controlled by said train of gears.

ll. in a fare box, the combination with the cash registering mechanism, of a fare register, a driven shaft, al releasable connection between said shaft and fare register, and means embodying a train of gears driven by the cash registering mechanism for releasing said connection.

l2. ln a` fare box, the combination with the cash registering mechanism, of a fare register, a driven shaft, a releasable connection between said shaft and fare register, a swingable member for controlling said connection, a train of gearing connected to said member, said gearing being operatively connected to said cash registering mechanism for swinging said member into an inoperative position, and means on said shaft for operating a part of said gearing for swinging said member into operative position.

in a fare box, the combination with the cash registering mechanism. of a fare register, ractional1 fare inoi driv- Eq i ing shait, a releasaoie ce. .c -wi between cash registering mechanism of a fare regis .L L

1 said connection, anda train ot gearing opersaid shaft and tare register,'and a train ot gears Vdriven by the Vcash registering mechanism forcontrolling said connection and operating the fractional fare indicator.

M 'In a fare box, the combination with the cash registering mechanism, ot Va tare register, a driven member, a 'releasable connection between said tare register and said driven member, a movable member for controllingsaid releasable connection, a train ot gears actuated by said cash registering mechanism, anda '..coiinectio'n between said gear train land controlling member tor. moving said memberupon a tare actuation of said gear train.

15. In a tare box, the combination with the cash registering mechanism of a tare lregister, a'driven member, a releasable connection between said tare register and driven membenand means actuated by sa'idcash registering Vme'clfianism tor controlling said connection.V

V`16.v In a tare box, the combination with thecash registering'mechanism, ot actare register, a drivenmember, aV releasable con` VAnectjioii betweensaid driven member and tare register, a movable member tor releasing said connection, 'and a train of gearing oper- Vatedvby said'cash registering mechanism for movingsaid member to releasing position and locking ythe same. g Y

V17.1n a fare box, the combination with Athe cash registering, mechanism, ot a tare register, a driven member, a releasable connection'between said driven member and fare register, a; movable member tor controlling atedby ,said cash registering mechanism, said ltrainV oi gearing being effective tor moving and locking said movable member in inoperativeposition, and said driven member -beingfei'ective 'for rotating a part ot said gear traiiiftor moving saidmovable member to operative position.

18. Inatare box, a Vtare register, a driven member, a releasable connection between said register and member, amovable meml ber for controlling lsaid connection, a train of gearing embodying an accumulative gear, a connection 'between said acciimulative gear andmovable member, said lastfnamed con-VV nection being effective for moving said movable member and locking the same in inoperative position, means on said driveninember Y 'for yactuating said accumulative gearrtor unlocking Vsaid movable member and moving it to operative position, fand means ordriving said train ot gears. i, Y

19. In a Jfare bona are'register a driven member, ay releasable connection between said Lregister and driven member, a movablel member for normally Vholding said connection in released position, tare actuated means for shittingjsaid movable member to inoperativeposition, and fare actuatingmeans for shittingsaid movable member to', operative position.

member, a releasable connection between said register and member, an accumulating gear, Va train of gears for intermittently driving said accumulating gear, a movable iiieinler ope "itvely' in dating ge., dr controlling said connection :and disengagable therefrom when in inoperative position, and means associated with said driven member toi reversely rotating saidy accumulating gear tor reestablishing the operative connection between accumulating gear and movable member tor shittingV the latter to operative position.

21. ln a tare box, the combination with 20. ln a tare bon, a `fare' register, a driven connected to said. accuthe cash registering mechanism, of a ltare Ycomprisino` an accumulating gear actuatable a distancebot one toot-li tor every tare regis tered-on said mechanism, a driven member, a releasable connection betweensaid register and driven-member', means, for reversely rotating said accumulating gear, and means controlled by the rotations oi'said accumulating gear torgoverning said releasable connection.

23. in a tare box,fthe combination with the cash registering mechanism, ot al tare register, a driven member, a releasableconnection between said tare-register and driven member, a movable member for controlling said connection, an accumulating gear, a trainof Vgears connecting said cash registering mechanism and accumulating gear Vfor intermittently rotating the saine a predetermined amount, a connection between said accumulating geary andV movable member tor -moving the lat-ter into inoperative position,

and `means onsaid driven member tor re nversely rotating said accumulating gear tor the purpose described. Y

2d. Inv a arejboX', the combination withA the cash registeringmechani'sm, ot a. tare register, a forwardly driven member, Ya con nection adapted for connecting said driven member and register, and means reversely operatedV by said driven member and cashV registering mechanism :tor controlling said connection.

25. ln ,a vfare box, thek combination'ivith 

